Student Name: Chris Dolos
Unit: Measurement of Time
Grade: 6
Assessor: Jay Fogleman
Score: 31/45
Notes:
Day 1 - Introduction to time; What is time?; Student pair up to estimate a time interval; HW: Reading about sundials.
Day 2 - Go over hw; Sundial lab
Day 3 - Ancient observatories; Astronomical cycles.
Day 4 - Researching historical timekeeping
Day 5 - Quiz
Day 6 - Flip book showing moon phases
Day 7 - Earth moon sun models.
Day 8 - Review
General comments:
Lesson sequence builds unit's ideas so that when student work with earth moon model, they know what they're looking for.
A variety of representations are used, including video, flip books, models.
It is good to look at how time was treated historically. Will you bring statements about other cultures into this lesson?
You should clarify/tighten your lesson plans so that information is not repeated. Context should describe overview and context of lesson, not preview all activities.
Objectives are supposed to be student objectives, not objectives for the teacher.
Changes suggested.
Revise wordy context sections so that they provide an overview of what students will do and why.
Revise objectives to be statements of what students will be able to do as a result of the day's learning. Do not write them as what students will produce specifically, but what they will be able to do. You may need to revise you assessment descriptions to align with these new objectives.
Evidence/ Comments:
4. Unit includes topics in GSEs as well as topics that extend the GSEs
Evidence/ Comments:
4.
Evidence/ Comments:
4.
Evidence/ Comments:
3
Evidence/Comments:
3. Although lessons talk about activating prior knowledge, questions about everyday life are rare.
Evidence/Comments:
4. Some accommodations are mentioned.
Evidence/Comments:
3
Evidence/Comments:
5. Students are given several opportunities to engage with phenomena.
Evidence/Comments
4. Students are given opportunities to connect concepts, but are not challeged with difficult questions.
Evidence/Comments:
3. Assessments are graded and returned. Lessons do not provide clear goals for students during the opening of each lesson.
Evidence/Comments:
4. Few spelling errors.
NSTA Content Evaluation
Number
NSTA Standard
Portion of Unit Plan
Score
Evidence / Comments
1a. Content:
Understand and can successfully convey to students the major concepts, principles, theories, laws, and interrelationships of their fields of licensure and supporting fields as recommended by the National Science Teachers Association;
Misconceptions about earth moon system not emphasized.
1b.
Understand and can successfully convey to students the unifying concepts of science delineated by the National Science Education Standards;
•Two Benchmark* lessons.
(* Lesson whose primary activity is conveying information)
3
1c.
Understand and can successfully convey to students important personal and technological applications of science in their fields of licensure
Lesson Plans
3
1d,
understand research and can successfully design, conduct, report evaluate investigations in science.
and understand
and
can successfully use mathematics to process and report data, and solve problems, in their field(s) of licensure.
Inquiry Lesson Plan(s)
3
2. Nature of Science.
Candidates:
understand the historical and cultural development of science and the evolution of knowledge in their discipline;
understand the philosophical tenets, assumptions, goals, and values that distinguish science from technology and from other ways of knowing the world;
engage students successfully in studies of the nature of science including, when possible, the critical analysis of false or doubtful assertions made in the name of science.
Lesson Plans
5
Historical development of timekeeping discussed.
3. Inquiry
Candidates
understand the processes, tenets, and assumptions of multiple methods of inquiry leading to scientific knowledge;
engage students successfully in developmentally appropriate inquiries that require them to develop concepts and relationships from their observations, data, and inferences in a scientific manner.
Inquiry Lesson Plan(s)
3
Investigation mechanics (practices) not stressed.
4. Issues
Candidates
understand socially important issues related to science and technology in their field of licensure, as well as processes used to analyze and make decisions on such issues;
engage students successfully in the analysis of problems, including considerations of risks, costs, and benefits of alternative solutions; relating these to the knowledge, goals and values of the students.
Unit Rationale
Lesson Plans
3
5.a General Teaching Skills
Candidates
vary their teaching actions, strategies, and methods to promote the development of multiple student skills and levels of understanding;
successfully promote the learning of science by students with different abilities, needs, interests, and backgrounds;
Lesson Plans
3
5. c-e
Candidates
successfully organize and engage students in collaborative learning using different student group learning strategies;
understand and build effectively upon the prior beliefs, knowledge, experiences, and interests of students; and
create and maintain a psychologically and socially safe and supportive learning environment.
Lesson Plans
3
Students work in groups, but detailed plans of how those groups will be supported is not included.
6. Curriculum
Candidates
understand the curricular recommendations of the National Science Education Standards, and can identify, access, and/or create resources and activities for science education that are consistent with the standards;
plan and implement internally consistent units of study that address the diverse goals of the National Science Education Standards and the needs and abilities of students.
Unit Rationale
Learning Goals
Concept Map
5
Lessons aligned with state standards.
7
Community
Candidates
identify ways to relate science to the community, involve stakeholders, and use community resources to promote the learning of science;
involve students successfully in activities that relate science to resources and stakeholders in the community or to the resolution of issues important to the community.
Lesson Plans
NA
Topic doesn't lend itself to community activitism.
8. Assessment
Candidates
use multiple assessment tools and strategies to achieve important goals for instruction that are aligned with methods of instruction and the needs of students;
use the results of multiple assessments to guide and modify instruction, the classroom environment, or the assessment process;
use the results of assessments as vehicles for students to analyze their own learning, engaging students in reflective self-analysis of their own work.
Assessment Plans
Lesson Plans
Summative Assessment
5
Plans describe numerous assessment strategies.
9. Safety
Candidates
understand the legal and ethical responsibilities of science teachers for the welfare of their students, the proper treatment of animals, and the maintenance and disposal of materials;
know and practice safe and proper techniques for the preparation, storage, dispensing, supervision, and disposal of all materials used in science instruction;
know and follow emergency procedures, maintain safety equipment, and ensure safety procedures appropriate for the activities and the abilities of students;
treat all living organisms used in the classroom or found in the field in a safe, humane, and ethical manner and respect legal restrictions on their collection, keeping, and use.
Student Name: Chris Dolos
Unit: Measurement of Time
Grade: 6
Assessor: Jay Fogleman
Score: 31/45
Notes:
Day 1 - Introduction to time; What is time?; Student pair up to estimate a time interval; HW: Reading about sundials.
Day 2 - Go over hw; Sundial lab
Day 3 - Ancient observatories; Astronomical cycles.
Day 4 - Researching historical timekeeping
Day 5 - Quiz
Day 6 - Flip book showing moon phases
Day 7 - Earth moon sun models.
Day 8 - Review
General comments:
Changes suggested.
Evidence/ Comments:
4. Unit includes topics in GSEs as well as topics that extend the GSEs
Evidence/ Comments:
4.
Evidence/ Comments:
4.
Evidence/ Comments:
3
Evidence/Comments:
3. Although lessons talk about activating prior knowledge, questions about everyday life are rare.
Evidence/Comments:
4. Some accommodations are mentioned.
Evidence/Comments:
3Evidence/Comments:
5. Students are given several opportunities to engage with phenomena.
Evidence/Comments
4. Students are given opportunities to connect concepts, but are not challeged with difficult questions.Evidence/Comments:
3. Assessments are graded and returned. Lessons do not provide clear goals for students during the opening of each lesson.Evidence/Comments:
4. Few spelling errors.NSTA Content Evaluation
•Overview
•Rationale
•Unpacking Learning Goals
•Concept Map
(* Lesson whose primary activity is conveying information)
and understand
and
can successfully use mathematics to process and report data, and solve problems, in their field(s) of licensure.
Candidates:
understand the philosophical tenets, assumptions, goals, and values that distinguish science from technology and from other ways of knowing the world;
engage students successfully in studies of the nature of science including, when possible, the critical analysis of false or doubtful assertions made in the name of science.
Candidates
engage students successfully in developmentally appropriate inquiries that require them to develop concepts and relationships from their observations, data, and inferences in a scientific manner.
Candidates
engage students successfully in the analysis of problems, including considerations of risks, costs, and benefits of alternative solutions; relating these to the knowledge, goals and values of the students.
Lesson Plans
Candidates
successfully promote the learning of science by students with different abilities, needs, interests, and backgrounds;
Candidates
understand and build effectively upon the prior beliefs, knowledge, experiences, and interests of students; and
create and maintain a psychologically and socially safe and supportive learning environment.
Candidates
plan and implement internally consistent units of study that address the diverse goals of the National Science Education Standards and the needs and abilities of students.
Learning Goals
Concept Map
Community
Candidates
involve students successfully in activities that relate science to resources and stakeholders in the community or to the resolution of issues important to the community.
Candidates
use the results of multiple assessments to guide and modify instruction, the classroom environment, or the assessment process;
use the results of assessments as vehicles for students to analyze their own learning, engaging students in reflective self-analysis of their own work.
Lesson Plans
Summative Assessment
Candidates
know and practice safe and proper techniques for the preparation, storage, dispensing, supervision, and disposal of all materials used in science instruction;
know and follow emergency procedures, maintain safety equipment, and ensure safety procedures appropriate for the activities and the abilities of students;
treat all living organisms used in the classroom or found in the field in a safe, humane, and ethical manner and respect legal restrictions on their collection, keeping, and use.